IEEE ... Applications of Ferroelectrics, Part 1IEEE, 1980 - Ferroelectric devices |
Contents
CHARACTERISTICS OF PYROELECTRIC VIDICON WITH A RETICULATED TARGET | 5 |
MONOLITHIC PYROELECTRIC ARRAYS only | 11 |
REQUIREMENTS IN PIEZOELECTRIC MATERIALS FOR DEFORMABLE MIRRORS | 19 |
Copyright | |
25 other sections not shown
Common terms and phrases
acoustic angle Appl BaTiO3 beam boracite capacitance capacitor Center ceramic coefficient composition coupling curve decrease density detector device diameter dielectric constant diffraction diffusion domain doped effect efficiency electric field electrodes electrooptic electrostrictive energy experimental ferroelectric figure of merit frequency function glass heat hysteresis IEEE increase input intensity interdigital KLN films laser layer LiNbO3 lithium niobate lithium niobate waveguides lithium oxide materials measured mechanical mode modulation Niobium observed obtained optical output oxide parameters peak permittivity phase photorefractive photorefractive effect Phys piezoelectric PLZT polished prism propagation properties pulse PVDF PVF2 pyroelectric pyroelectric detectors PZT ceramics ratio refractive refractive index remanent polarization resonance reticulated room temperature sample scattering sensitivity shown in Fig shows signal silicon single crystal sintering space charge storage stress structure surface switching target technique thermal thick thin titanate transducer transition undoped voltage wafer wave wavelength